Open AccessSESAMs for high-power femtosecond modelocking: power scaling of an Yb:LuScO_3 thin disk laser to 23 W and 235 fs
Author(s) -
Clara J. Saraceno,
Oliver H. Heckl,
C. R. E. Baer,
M. Golling,
Thomas Südmeyer,
Kolja Beil,
Christian Kränkel,
K. Petermann,
G. Hüber,
U. Keller
Publication year - 2011
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.19.020288
Subject(s) - thin disk , materials science , sesquioxide , optics , femtosecond , laser , disk laser , pulse duration , laser power scaling , thin film , optoelectronics , physics , stars , astronomy , metallurgy , nanotechnology
We report on power scaling of a modelocked thin disk laser based on the broadband mixed sesquioxide material Yb:LuScO₃. One of the key elements to achieve this result was an improved SESAM design with reduced two-photon-absorption (TPA) and high damage threshold. In a first experiment, using a standard antiresonant SESAM with no topcoating, we could demonstrate record short pulse durations of 195 fs at a moderate average power of 9.5 W. Furthermore, we were able to power scale our thin disk laser while keeping the pulses short reaching 23 W at a pulse duration of 235 fs. This was made possible by designing a new SESAM with multiple quantum wells (QW) and a suitable dielectric topcoating. We will present SESAM optimization guidelines for short pulse generation from high-power modelocked oscillators.
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